Shoe, especially sports shoe

ABSTRACT

The invention relates to a shoe, especially to a sports shoe, having a shoe upper. The shoe upper consists at least partially of a knitted fabric. The shoe upper has a plurality of loops for threading a lace to allow the tying of the shoe at the foot of a wearer by means of the lace. To provide an easy and efficient method for adjusting the lacing or tying of the shoe at the foot of the wearer individually, at least a part of the loops consist of a knitted fabric. The loops have the shape of a tubular body which forms a passage for the lace.

This application is a continuation of U.S. patent application Ser. No. 16/619,764 filed Dec. 5, 2019; which is a U.S. National Stage application, filed pursuant to 35 U.S.C. § 371, of international application no. PCT/EP2017/000750, filed on Jun. 27, 2017, the contents of which is incorporated herein by reference in its entirety.

The invention relates to a shoe, especially to a sports shoe, comprising a shoe upper, wherein the shoe upper consists at least partially of a knitted fabric, wherein the shoe upper has a plurality of loops for threading a lace to allow the tying of the shoe at the foot of a wearer by means of the lace, wherein the loops are a physical structure that define a plurality of channels, the channels being the negative space defined by the loops, and wherein the term “tunnel” refers to both the physical structure of the loop and the negative space of the channel, and wherein at least a part of the loops consist of a knitted fabric, wherein the loops have the shape of a tubular body which forms a passage for the lace.

Usual lacing devices of shoes, especially of sports shoes, have loops which are arranged at a tying strip which is connected with the shoe upper or is part of the same. The loops are arranged near the tongue of the shoe.

Thus, the ability of the shoe to adapt the lacing or tying to an individual shape of the foot of the wearer is limited. Individual demands can normally not be fulfilled. This can lead to a lose fit of the shoe or to pressure marks at the foot of the wearer.

A shoe of the generic kind is shown in EP 3 114 951 A1. Similar solutions are disclosed in US 2016/0302524 A1 and US 2008/0110048 A1.

It is an object of the present invention to propose a shoe, especially a sports shoe, which provides an easy and efficient possibility to adjust the lacing or tying of the shoe at the foot of the wearer very individually.

The solution of this object according to the invention is characterized in that the knitted fabric of the shoe upper and the knitted fabric of the loops form a unitary knit construction, wherein the loops are connected with the knitted fabric of the shoe upper only by the knitted construction and are free from any means for transferring a tying force (like for example tensile strands which are arranged on or in the shoe upper).

At least a part of the loops can have an outer diameter and an inner diameter to form the tubular body for receiving the lace, wherein the tubular body has a length, wherein the length is at least 100% of the outer diameter. Preferably, the length is at least 150%, specifically at least 200%, of the outer diameter. Each loop consists of a plurality of knitted rows of yarn.

The tubular body of the loops and channels can have an axial direction, wherein the axial direction is oriented in the longitudinal direction of the shoe or draws an angle to the longitudinal direction below 30°, preferably below 25°. The longitudinal direction of the shoe is defined by a longitudinal plane that is parallel with respect to a resting surface when the shoe is resting on the resting surface. But this orientation of the loops is not mandatory. It is also possible to orient the loops under another angle up to 90° to the longitudinal direction (i.e. perpendicular to the longitudinal direction).

Preferably a number of loops is arranged in such a manner that the loops have the same axial direction.

The loops are preferably distanced from another by a distance, measured perpendicular to the axial direction, wherein the distance is between 2 mm and 25 mm.

The knitted fabric of the shoe upper can form a single layer which bears the loops.

An alternative embodiment provides that the knitted fabric of the shoe upper has at least two layers, wherein the upper layer bears the loops. In this case it can be provided that the layer below the upper layer is connected with the upper layer but has no contact with the loops.

According to a preferred embodiment of the invention the yarn of the shoe upper can consist of or comprise polyester or polyamide. Also, the yarn of the loops can consist of or comprise polyester or polyamide. Of course, also other kinds of yarn are suitable.

The yarns of the shoe upper and of the loops can be different in at least one (physical) property. Specifically, the yarns of the shoe upper and of the loops can have different colors. Of course, it is also possible to use the same yarn for the shoe upper and the loops.

By the proposed concept it is possible to provide a plurality of loops for threading of the lace which can be selected according to individual demands. The loops for the lace are distributed along a quite large area of the shoe upper so that the user can select the required loops according to his or her individual demands. So the lacing or tying of the shoe can be adapted perfectly not only to the shape of the foot of the wearer; it is also possible to take specific demands in consideration which depend on the type of sports and specific training situations.

It is also possible for specific types of sport or training situations to tie the shoe at the foot of the wearer to fix the shoe specifically for lateral or forward movements or to give more hold in the heel region.

Also with respect to this aspect the proposed shoe has advantages compared with pre-known solutions.

Thus, a knitted section of the shoe upper—which is relevant for tying the shoe at the foot of the wearer—is supplied at the outer surface with a plurality of loops or channels (tunnels) which are designed and dimensioned for defining a passage for a lace. The loops are made in such a manner that they are firmly connected with the knitted fabric to avoid pulling out the loops from the knitted fabric below.

A double layer knitted fabric (Double Jersey) is preferred, wherein the loops step out from the upper layer. The bottom layer is flat and ensures the stability of the whole fabric. Also a knitted fabric as a single layer (Single Jersey) is possible which then bears the plurality of loops (tubes, channels or tunnels).

The shoe upper can consist completely of the knitted fabric.

The knitted tubular body which forms the loops can be produced with well-known methods so that a specific description is not necessary here. Reference is made to the so-called Ottoman Stitch which allows the knitting of the loops on a respective knitting machine.

It was found that the knitted base material (made preferably from polyester or polyamide) as well as the number of filaments in the knitting yarn define the tensile strength. Also the length of the loops (channels, tubes) has a respective influence with respect to the stability. Accordingly, it can be taken in consideration to enlarge the length of the loops in the case of types of sports where specific high forces must be expected.

With regard to the knitting technique it should be mentioned that a preferred method is knitting the shoe upper from the right to the left side (i. e. from the lateral side to the medial side of the shoe upper (or vise versa); normally, the shoe upper is knitted from the shoe tip to the heel (or vice versa).

In the drawings embodiments of the invention are shown.

FIG. 1 shows a side view of a sports shoe,

FIG. 2 shows a perspective view of a part of the upper side of a shoe upper according to a first embodiment of the invention,

FIG. 3 shows the depiction according to FIG. 2 with a lace being threaded through a loop,

FIG. 4 shows a perspective view of a part of the upper side of a shoe upper according to a second embodiment of the invention and

FIG. 5 shows the depiction according to FIG. 4 with a lace being threaded through a loop.

In FIG. 1 a shoe 1 is shown which is a sports shoe. The shoe 1 has a shoe upper 2 and a sole structure 7 which is connected with the shoe upper 2. The shoe 1 has a lateral side, which would be proximate to the outer edge of the foot of a wearer and a medial side, which would be proximate to the inner edge of the foot of a wearer. In the present case the shoe upper 2 consists completely from a knitted fabric. A specific design is provided to allow an individual tying of the shoe at the foot of a wearer.

As can be seen from FIG. 1 a plurality of loops 3 are arranged at and extend from the outer surface defined by the first knitted layer of the shoe upper 2. At least some of the plurality of loops are disposed in a plurality of rows 9 along the upper. At least some of the plurality of loops 3 can define a first plurality of loops that each define a first channel Additionally, at least some of the plurality of loops 3 can define a second plurality of loops that each define a second channel. At least part of the loops 3 comprise or consist as well from a knitted fabric and form a unitary knitted construction together with the first knitted base layer of the shoe upper 2.

Each loop 3 is designed as a tubular body which could also be defined as channel or tunnel and is arranged for threading a lace 4. Thus, each loop 3 forms a passage 8 for the lace 4 (see FIGS. 2 and 4).

As can be also seen from FIG. 1 the plurality of loops 3 is distributed at the outer side of the shoe upper 2 according to a specific pattern: A number of loops 3, which can define a first channel, a second channel, a third channel, a fourth channel, a fifth channel, a sixth channel, a seventh channel, an eighth channel, a ninth channel, a tenth channel, an eleventh channel, and/or a twelfth channel, is arranged in line along their axial direction a. From FIGS. 1-5 it becomes apparent that loops (channels) arranged in line along their axial direction a can define a row. For example, the first channel and the second channel may be coaxial and define a first channel row, the third channel and the fourth channel may be coaxial and define a second channel row, the fifth channel and sixth channels may similarly define a third channel row, and so on. From FIGS. 1-5 it becomes apparent that a channel row may also comprise three or more channels. A number of such sets of loops 3 are arranged on the lateral side of the upper 2 of the shoe 1 with a certain distance perpendicular to the mentioned axial direction a (details see FIGS. 2 and 3), and define a subset of the plurality of loops 3 (“first loops”) that are parallel to one another but separated by a distance perpendicular to the mentioned axial direction, and are thus parallel to one another but not coaxial (i.e. are arranged in columns 10). From FIGS. 2-5 it becomes apparent that at least two of loops 3, or at least three of loops 3, or more than three of loops 3, can define a set of first loops.

That is, a plurality of possibilities is given for threading the lace 4 through respective loops 3 so that the shoe 1 can be tied according to individual demands at the foot of the wearer. From FIGS. 1-5 it becomes apparent that a lace can be threaded through at least one of the first, second, third, and fourth channel rows. From FIGS. 1-5 it also becomes apparent that the lace may, or may not, be configured for tying of the shoe at a foot of a wearer.

Details concerning the geometry of the loops 3 become apparent from FIGS. 2 and 3. Here, it can be seen that each loop 3 forms a hollow-cylindrical body, i. e. the loop 3 has a tubular shape. Each loop 3 has an outer diameter D and an inner diameter d as well as a length c, which extends in axial direction a of the loop 3.

FIG. 2 illustrates the top surface of the shoe upper 2 without lace 4, while the lace 4 is threaded through a loop 3 in FIG. 3.

From FIG. 2 it becomes apparent that a number of loops 3 can also define a subset of loops (“second loops”) that can be arranged coaxially to one another, i.e. the axial direction a of a number of loops 3, and the axial direction of their respective channels, is identical. From FIGS. 1-5 it becomes apparent that at least two of loops 3, or at least three of loops 3, or more than three of loops 3, can define a subset of second loops. The first plurality of loops are arranged coaxially to form a first row. The second plurality of loops are arranged coaxially to form a second row. A number of those rows 9 of loops 3 can also define a set of “first loops” that is arranged side by side in columns 10, i.e. parallel to one another at a distance b measured perpendicular to the axial direction a, wherein distance b is greater than 0 millimeters. From FIGS. 2-5 it becomes apparent that the first plurality of loops forming the first row and the second plurality of loops forming the second row can be arranged side by side and/or in parallel with respect to one another. From FIG. 1 it becomes apparent that the first plurality of loops and the second plurality of loops are provided on a lateral side of the upper 2 of shoe 1.

The axial direction a of the loops 3 is substantially oriented in the longitudinal direction L of the shoe 1 (see FIG. 1). That is, the axial direction a draws only a small angle α to the longitudinal direction L which is below 30°, preferably below 25°. This allows an optimal threading of the lace 4 and a good transfer of forces from the loop 3 to the shoe upper 2.

In the embodiment according to FIGS. 2 and 3 the shoe upper 2 has only a single layer of knitted fabric (Single Jersey). In FIGS. 4 and 5 an embodiment is depicted in which the shoe upper 2 consists of two layers 5 and 6, namely of an upper layer 5 of the shoe upper 2 and a bottom layer 6 of the shoe upper 2 (Double Jersey). The loops 3 are formed as a unitary knitted construction with the upper layer 5 while the bottom layer 6 is connected with the upper layer 5 but not with the loops 3.

The depiction according FIG. 1 shows an embodiment which is substantially on scale with regard to the dimensions of the loops 3. From FIGS. 1-5 it becomes apparent that a number of loops 3 can define another subset of loops (“third loops”) that can be part of the subset of second loops that are arranged coaxially, while also simultaneously being a part of the subset of first loops that are arranged parallel to one another at a distance b. From FIGS. 1-5 it becomes apparent that a plurality of loops 3 can define a subset of third loops.

The whole knitting construction of the shoe upper 2 including the loops 3 can be produced on a knitting machine which is well known as such and allows an economical production of the shoe upper 2.

REFERENCE NUMERALS

-   1 Shoe -   2 Shoe upper -   3 Loop -   4 Lace -   5 Upper layer of the shoe upper -   6 Bottom layer of the shoe upper -   7 Sole -   8 Passage (channel) -   9 Rows of Loops -   10 Column of Loops -   11 Tunnel -   D Outer diameter of the loop -   d Inner diameter of the loop -   c Length of the loop -   a Axial direction of the loop -   b Distance between the loops -   L Longitudinal direction of the shoe -   α Angle 

We claim:
 1. A shoe, comprising a knitted upper and a sole structure, the upper comprising: a first knitted layer defining an outer surface of the upper; a first plurality of loops that each define a first channel and extend from the upper, the first plurality of loops being configured to allow for threading therethrough; and a second plurality of loops that each define a second channel and extend from the upper, the second plurality of loops being configured to allow for threading therethrough, wherein at least a part of the first plurality of loops and the second plurality of loops comprise knitted fabric that forms a unitary construction with the first knitted layer, wherein a longitudinal plane is parallel with respect to a resting surface when the shoe is resting on the resting surface, and wherein the first channels define a first axis that defines an angle that is less than 30° offset from the longitudinal plane.
 2. The shoe of claim 1, wherein the first channels define an outer diameter and an inner diameter, wherein the at least one channel has a length, wherein the length is at least 200% of the outer diameter.
 3. The shoe of claim 1, wherein the first plurality of loops are disposed in a first row and the second plurality of loops are disposed in a second row along the upper.
 4. The shoe of claim 1, wherein the first plurality of loops and the second plurality of loops are arranged side by side.
 5. The shoe of claim 4, wherein the first plurality of loops and the second plurality of loops are parallel with respect to one another.
 6. The shoe of claim 5, wherein the first plurality of loops and the second plurality of loops are provided on a lateral side of the upper.
 7. The shoe of claim 1, wherein the first knitted layer forms a single layer which bears the first and second channels.
 8. The shoe of claim 1, wherein a lace is provided through the first plurality of loops and the second plurality of loops.
 9. The shoe of claim 8, wherein the lace is configured for tying of the shoe at a foot of a wearer.
 10. A shoe, comprising a knitted upper and a sole structure, the upper comprising: a first knitted layer defining an outer surface of the upper; a lateral side and a medial side; and a first channel, a second channel, a third channel, a fourth channel, a fifth channel, and a sixth channel, a seventh channel, and an eighth channel, wherein the first channel is oriented coaxially with respect to the second channel, forming a first channel row, the third channel is oriented coaxially with respect to the fourth channel, forming a second channel row, the fifth channel is oriented coaxially with respect to the sixth channel, forming a third channel row, and the seventh channel is oriented coaxially with respect to the eighth channel, forming a fourth channel row, wherein the first, second, third, and fourth channel rows are each disposed on the lateral side, wherein each channel extends from the upper and is configured to allow for threading therethrough, and wherein each channel comprises knitted fabric that forms a unitary construction with the first knitted layer.
 11. The shoe of claim 10, wherein the first, second, third, and fourth channel rows are arranged such that each respective axis is parallel with respect to one another.
 12. The shoe of claim 11 further comprising a ninth channel, a tenth channel, an eleventh channel, and a twelfth channel; wherein the ninth channel is oriented coaxially with respect to the tenth channel forming a fifth channel row, and the eleventh channel is oriented coaxially with respect to the twelfth channel forming a sixth channel row, and wherein the fifth and sixth channel rows are arranged such that each respective axis is oriented parallel with respect to one another.
 13. The shoe of claim 12, wherein the fifth and sixth channel rows are disposed on the lateral side of the shoe.
 14. The shoe of claim 11, wherein the first, second, third, and fourth channel rows are each arranged such that each respective axis is oriented parallel with respect to one another.
 15. The shoe of claim 14, wherein the first, second, third, and fourth channel rows are arranged such that each respective axis is not coaxial with respect to one another.
 16. The shoe of claim 11, wherein at least the first, second, third, and fourth channel rows are each separated from one another by a distance of between 2 millimeters and 25 millimeters, measured in the direction perpendicular to the axial direction of the first, second, third, and fourth channel rows.
 17. The shoe of claim 11, wherein the first channel row further comprises an additional channel that is coaxial with respect to the first channel and the second channel.
 18. The shoe of claim 11, wherein each of the first, second, third, and fourth channel rows further comprise an additional channel that is coaxial to their respective channels.
 19. The shoe of claim 11, wherein a lace is threaded through at least one of the first, second, third, and fourth channel rows.
 20. A shoe, comprising a knitted upper and a sole structure, the upper comprising: a first knitted layer defining an outer surface of the upper; a lateral side and a medial side; and a first channel, a second channel, a third channel, a fourth channel, a fifth channel, a sixth channel, a seventh channel, an eighth channel, a ninth channel, a tenth channel, an eleventh channel, and a twelfth channel, wherein the first channel is oriented coaxial with respect to the second channel, forming a first channel row, the third channel is oriented coaxial with respect to the fourth channel, forming a second channel row, the fifth channel is oriented coaxial with respect to the sixth channel, forming a third channel row, the seventh channel is oriented coaxial with respect to the eighth channel, forming a fourth channel row, the ninth channel is oriented coaxial with respect to the tenth channel, forming a fifth channel row, and the eleventh channel is oriented coaxial with respect to the twelfth channel, forming a sixth channel row, wherein the first, second, third, fourth, fifth, and sixth channel rows are each disposed on the lateral side, and wherein the first, second, third, fourth, fifth, and sixth channel rows are arranged such that each respective axis is oriented parallel but not coaxial with respect to one another, wherein each channel extends from the upper and are configured to allow threading therethrough, and wherein each channel comprises knitted fabric that forms a unitary construction with the first knitted layer. 